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// Copyright 2018 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package modfetch
import (
"archive/zip"
"bytes"
"errors"
"fmt"
"io"
"io/ioutil"
"os"
"path"
"sort"
"strings"
"time"
"cmd/go/internal/modfetch/codehost"
"golang.org/x/mod/modfile"
"golang.org/x/mod/module"
"golang.org/x/mod/semver"
modzip "golang.org/x/mod/zip"
)
// A codeRepo implements modfetch.Repo using an underlying codehost.Repo.
type codeRepo struct {
modPath string
// code is the repository containing this module.
code codehost.Repo
// codeRoot is the import path at the root of code.
codeRoot string
// codeDir is the directory (relative to root) at which we expect to find the module.
// If pathMajor is non-empty and codeRoot is not the full modPath,
// then we look in both codeDir and codeDir/pathMajor[1:].
codeDir string
// pathMajor is the suffix of modPath that indicates its major version,
// or the empty string if modPath is at major version 0 or 1.
//
// pathMajor is typically of the form "/vN", but possibly ".vN", or
// ".vN-unstable" for modules resolved using gopkg.in.
pathMajor string
// pathPrefix is the prefix of modPath that excludes pathMajor.
// It is used only for logging.
pathPrefix string
// pseudoMajor is the major version prefix to require when generating
// pseudo-versions for this module, derived from the module path. pseudoMajor
// is empty if the module path does not include a version suffix (that is,
// accepts either v0 or v1).
pseudoMajor string
}
// newCodeRepo returns a Repo that reads the source code for the module with the
// given path, from the repo stored in code, with the root of the repo
// containing the path given by codeRoot.
func newCodeRepo(code codehost.Repo, codeRoot, path string) (Repo, error) {
if !hasPathPrefix(path, codeRoot) {
return nil, fmt.Errorf("mismatched repo: found %s for %s", codeRoot, path)
}
pathPrefix, pathMajor, ok := module.SplitPathVersion(path)
if !ok {
return nil, fmt.Errorf("invalid module path %q", path)
}
if codeRoot == path {
pathPrefix = path
}
pseudoMajor := module.PathMajorPrefix(pathMajor)
// Compute codeDir = bar, the subdirectory within the repo
// corresponding to the module root.
//
// At this point we might have:
// path = github.com/rsc/foo/bar/v2
// codeRoot = github.com/rsc/foo
// pathPrefix = github.com/rsc/foo/bar
// pathMajor = /v2
// pseudoMajor = v2
//
// which gives
// codeDir = bar
//
// We know that pathPrefix is a prefix of path, and codeRoot is a prefix of
// path, but codeRoot may or may not be a prefix of pathPrefix, because
// codeRoot may be the entire path (in which case codeDir should be empty).
// That occurs in two situations.
//
// One is when a go-import meta tag resolves the complete module path,
// including the pathMajor suffix:
// path = nanomsg.org/go/mangos/v2
// codeRoot = nanomsg.org/go/mangos/v2
// pathPrefix = nanomsg.org/go/mangos
// pathMajor = /v2
// pseudoMajor = v2
//
// The other is similar: for gopkg.in only, the major version is encoded
// with a dot rather than a slash, and thus can't be in a subdirectory.
// path = gopkg.in/yaml.v2
// codeRoot = gopkg.in/yaml.v2
// pathPrefix = gopkg.in/yaml
// pathMajor = .v2
// pseudoMajor = v2
//
codeDir := ""
if codeRoot != path {
if !hasPathPrefix(pathPrefix, codeRoot) {
return nil, fmt.Errorf("repository rooted at %s cannot contain module %s", codeRoot, path)
}
codeDir = strings.Trim(pathPrefix[len(codeRoot):], "/")
}
r := &codeRepo{
modPath: path,
code: code,
codeRoot: codeRoot,
codeDir: codeDir,
pathPrefix: pathPrefix,
pathMajor: pathMajor,
pseudoMajor: pseudoMajor,
}
return r, nil
}
func (r *codeRepo) ModulePath() string {
return r.modPath
}
func (r *codeRepo) Versions(prefix string) ([]string, error) {
// Special case: gopkg.in/macaroon-bakery.v2-unstable
// does not use the v2 tags (those are for macaroon-bakery.v2).
// It has no possible tags at all.
if strings.HasPrefix(r.modPath, "gopkg.in/") && strings.HasSuffix(r.modPath, "-unstable") {
return nil, nil
}
p := prefix
if r.codeDir != "" {
p = r.codeDir + "/" + p
}
tags, err := r.code.Tags(p)
if err != nil {
return nil, &module.ModuleError{
Path: r.modPath,
Err: err,
}
}
var list, incompatible []string
for _, tag := range tags {
if !strings.HasPrefix(tag, p) {
continue
}
v := tag
if r.codeDir != "" {
v = v[len(r.codeDir)+1:]
}
if v == "" || v != module.CanonicalVersion(v) || IsPseudoVersion(v) {
continue
}
if err := module.CheckPathMajor(v, r.pathMajor); err != nil {
if r.codeDir == "" && r.pathMajor == "" && semver.Major(v) > "v1" {
incompatible = append(incompatible, v)
}
continue
}
list = append(list, v)
}
SortVersions(list)
SortVersions(incompatible)
return r.appendIncompatibleVersions(list, incompatible)
}
// appendIncompatibleVersions appends "+incompatible" versions to list if
// appropriate, returning the final list.
//
// The incompatible list contains candidate versions without the '+incompatible'
// prefix.
//
// Both list and incompatible must be sorted in semantic order.
func (r *codeRepo) appendIncompatibleVersions(list, incompatible []string) ([]string, error) {
if len(incompatible) == 0 || r.pathMajor != "" {
// No +incompatible versions are possible, so no need to check them.
return list, nil
}
versionHasGoMod := func(v string) (bool, error) {
_, err := r.code.ReadFile(v, "go.mod", codehost.MaxGoMod)
if err == nil {
return true, nil
}
if !os.IsNotExist(err) {
return false, &module.ModuleError{
Path: r.modPath,
Err: err,
}
}
return false, nil
}
if len(list) > 0 {
ok, err := versionHasGoMod(list[len(list)-1])
if err != nil {
return nil, err
}
if ok {
// The latest compatible version has a go.mod file, so assume that all
// subsequent versions do as well, and do not include any +incompatible
// versions. Even if we are wrong, the author clearly intends module
// consumers to be on the v0/v1 line instead of a higher +incompatible
// version. (See https://golang.org/issue/34189.)
//
// We know of at least two examples where this behavior is desired
// (github.com/russross/blackfriday@v2.0.0 and
// github.com/libp2p/go-libp2p@v6.0.23), and (as of 2019-10-29) have no
// concrete examples for which it is undesired.
return list, nil
}
}
var (
lastMajor string
lastMajorHasGoMod bool
)
for i, v := range incompatible {
major := semver.Major(v)
if major != lastMajor {
rem := incompatible[i:]
j := sort.Search(len(rem), func(j int) bool {
return semver.Major(rem[j]) != major
})
latestAtMajor := rem[j-1]
var err error
lastMajor = major
lastMajorHasGoMod, err = versionHasGoMod(latestAtMajor)
if err != nil {
return nil, err
}
}
if lastMajorHasGoMod {
// The latest release of this major version has a go.mod file, so it is
// not allowed as +incompatible. It would be confusing to include some
// minor versions of this major version as +incompatible but require
// semantic import versioning for others, so drop all +incompatible
// versions for this major version.
//
// If we're wrong about a minor version in the middle, users will still be
// able to 'go get' specific tags for that version explicitly — they just
// won't appear in 'go list' or as the results for queries with inequality
// bounds.
continue
}
list = append(list, v+"+incompatible")
}
return list, nil
}
func (r *codeRepo) Stat(rev string) (*RevInfo, error) {
if rev == "latest" {
return r.Latest()
}
codeRev := r.revToRev(rev)
info, err := r.code.Stat(codeRev)
if err != nil {
return nil, &module.ModuleError{
Path: r.modPath,
Err: &module.InvalidVersionError{
Version: rev,
Err: err,
},
}
}
return r.convert(info, rev)
}
func (r *codeRepo) Latest() (*RevInfo, error) {
info, err := r.code.Latest()
if err != nil {
return nil, err
}
return r.convert(info, "")
}
// convert converts a version as reported by the code host to a version as
// interpreted by the module system.
//
// If statVers is a valid module version, it is used for the Version field.
// Otherwise, the Version is derived from the passed-in info and recent tags.
func (r *codeRepo) convert(info *codehost.RevInfo, statVers string) (*RevInfo, error) {
info2 := &RevInfo{
Name: info.Name,
Short: info.Short,
Time: info.Time,
}
// If this is a plain tag (no dir/ prefix)
// and the module path is unversioned,
// and if the underlying file tree has no go.mod,
// then allow using the tag with a +incompatible suffix.
var canUseIncompatible func() bool
canUseIncompatible = func() bool {
var ok bool
if r.codeDir == "" && r.pathMajor == "" {
_, errGoMod := r.code.ReadFile(info.Name, "go.mod", codehost.MaxGoMod)
if errGoMod != nil {
ok = true
}
}
canUseIncompatible = func() bool { return ok }
return ok
}
invalidf := func(format string, args ...interface{}) error {
return &module.ModuleError{
Path: r.modPath,
Err: &module.InvalidVersionError{
Version: info2.Version,
Err: fmt.Errorf(format, args...),
},
}
}
// checkGoMod verifies that the go.mod file for the module exists or does not
// exist as required by info2.Version and the module path represented by r.
checkGoMod := func() (*RevInfo, error) {
// If r.codeDir is non-empty, then the go.mod file must exist: the module
// author — not the module consumer, — gets to decide how to carve up the repo
// into modules.
//
// Conversely, if the go.mod file exists, the module author — not the module
// consumer — gets to determine the module's path
//
// r.findDir verifies both of these conditions. Execute it now so that
// r.Stat will correctly return a notExistError if the go.mod location or
// declared module path doesn't match.
_, _, _, err := r.findDir(info2.Version)
if err != nil {
// TODO: It would be nice to return an error like "not a module".
// Right now we return "missing go.mod", which is a little confusing.
return nil, &module.ModuleError{
Path: r.modPath,
Err: &module.InvalidVersionError{
Version: info2.Version,
Err: notExistError{err: err},
},
}
}
// If the version is +incompatible, then the go.mod file must not exist:
// +incompatible is not an ongoing opt-out from semantic import versioning.
if strings.HasSuffix(info2.Version, "+incompatible") {
if !canUseIncompatible() {
if r.pathMajor != "" {
return nil, invalidf("+incompatible suffix not allowed: module path includes a major version suffix, so major version must match")
} else {
return nil, invalidf("+incompatible suffix not allowed: module contains a go.mod file, so semantic import versioning is required")
}
}
if err := module.CheckPathMajor(strings.TrimSuffix(info2.Version, "+incompatible"), r.pathMajor); err == nil {
return nil, invalidf("+incompatible suffix not allowed: major version %s is compatible", semver.Major(info2.Version))
}
}
return info2, nil
}
// Determine version.
//
// If statVers is canonical, then the original call was repo.Stat(statVers).
// Since the version is canonical, we must not resolve it to anything but
// itself, possibly with a '+incompatible' annotation: we do not need to do
// the work required to look for an arbitrary pseudo-version.
if statVers != "" && statVers == module.CanonicalVersion(statVers) {
info2.Version = statVers
if IsPseudoVersion(info2.Version) {
if err := r.validatePseudoVersion(info, info2.Version); err != nil {
return nil, err
}
return checkGoMod()
}
if err := module.CheckPathMajor(info2.Version, r.pathMajor); err != nil {
if canUseIncompatible() {
info2.Version += "+incompatible"
return checkGoMod()
} else {
if vErr, ok := err.(*module.InvalidVersionError); ok {
// We're going to describe why the version is invalid in more detail,
// so strip out the existing “invalid version” wrapper.
err = vErr.Err
}
return nil, invalidf("module contains a go.mod file, so major version must be compatible: %v", err)
}
}
return checkGoMod()
}
// statVers is empty or non-canonical, so we need to resolve it to a canonical
// version or pseudo-version.
// Derive or verify a version from a code repo tag.
// Tag must have a prefix matching codeDir.
tagPrefix := ""
if r.codeDir != "" {
tagPrefix = r.codeDir + "/"
}
// tagToVersion returns the version obtained by trimming tagPrefix from tag.
// If the tag is invalid or a pseudo-version, tagToVersion returns an empty
// version.
tagToVersion := func(tag string) (v string, tagIsCanonical bool) {
if !strings.HasPrefix(tag, tagPrefix) {
return "", false
}
trimmed := tag[len(tagPrefix):]
// Tags that look like pseudo-versions would be confusing. Ignore them.
if IsPseudoVersion(tag) {
return "", false
}
v = semver.Canonical(trimmed) // Not module.Canonical: we don't want to pick up an explicit "+incompatible" suffix from the tag.
if v == "" || !strings.HasPrefix(trimmed, v) {
return "", false // Invalid or incomplete version (just vX or vX.Y).
}
if v == trimmed {
tagIsCanonical = true
}
if err := module.CheckPathMajor(v, r.pathMajor); err != nil {
if canUseIncompatible() {
return v + "+incompatible", tagIsCanonical
}
return "", false
}
return v, tagIsCanonical
}
// If the VCS gave us a valid version, use that.
if v, tagIsCanonical := tagToVersion(info.Version); tagIsCanonical {
info2.Version = v
return checkGoMod()
}
// Look through the tags on the revision for either a usable canonical version
// or an appropriate base for a pseudo-version.
var pseudoBase string
for _, pathTag := range info.Tags {
v, tagIsCanonical := tagToVersion(pathTag)
if tagIsCanonical {
if statVers != "" && semver.Compare(v, statVers) == 0 {
// The user requested a non-canonical version, but the tag for the
// canonical equivalent refers to the same revision. Use it.
info2.Version = v
return checkGoMod()
} else {
// Save the highest canonical tag for the revision. If we don't find a
// better match, we'll use it as the canonical version.
//
// NOTE: Do not replace this with semver.Max. Despite the name,
// semver.Max *also* canonicalizes its arguments, which uses
// semver.Canonical instead of module.CanonicalVersion and thereby
// strips our "+incompatible" suffix.
if semver.Compare(info2.Version, v) < 0 {
info2.Version = v
}
}
} else if v != "" && semver.Compare(v, statVers) == 0 {
// The user explicitly requested something equivalent to this tag. We
// can't use the version from the tag directly: since the tag is not
// canonical, it could be ambiguous. For example, tags v0.0.1+a and
// v0.0.1+b might both exist and refer to different revisions.
//
// The tag is otherwise valid for the module, so we can at least use it as
// the base of an unambiguous pseudo-version.
//
// If multiple tags match, tagToVersion will canonicalize them to the same
// base version.
pseudoBase = v
}
}
// If we found any canonical tag for the revision, return it.
// Even if we found a good pseudo-version base, a canonical version is better.
if info2.Version != "" {
return checkGoMod()
}
if pseudoBase == "" {
var tag string
if r.pseudoMajor != "" || canUseIncompatible() {
tag, _ = r.code.RecentTag(info.Name, tagPrefix, r.pseudoMajor)
} else {
// Allow either v1 or v0, but not incompatible higher versions.
tag, _ = r.code.RecentTag(info.Name, tagPrefix, "v1")
if tag == "" {
tag, _ = r.code.RecentTag(info.Name, tagPrefix, "v0")
}
}
pseudoBase, _ = tagToVersion(tag) // empty if the tag is invalid
}
info2.Version = PseudoVersion(r.pseudoMajor, pseudoBase, info.Time, info.Short)
return checkGoMod()
}
// validatePseudoVersion checks that version has a major version compatible with
// r.modPath and encodes a base version and commit metadata that agrees with
// info.
//
// Note that verifying a nontrivial base version in particular may be somewhat
// expensive: in order to do so, r.code.DescendsFrom will need to fetch at least
// enough of the commit history to find a path between version and its base.
// Fortunately, many pseudo-versions — such as those for untagged repositories —
// have trivial bases!
func (r *codeRepo) validatePseudoVersion(info *codehost.RevInfo, version string) (err error) {
defer func() {
if err != nil {
if _, ok := err.(*module.ModuleError); !ok {
if _, ok := err.(*module.InvalidVersionError); !ok {
err = &module.InvalidVersionError{Version: version, Pseudo: true, Err: err}
}
err = &module.ModuleError{Path: r.modPath, Err: err}
}
}
}()
if err := module.CheckPathMajor(version, r.pathMajor); err != nil {
return err
}
rev, err := PseudoVersionRev(version)
if err != nil {
return err
}
if rev != info.Short {
switch {
case strings.HasPrefix(rev, info.Short):
return fmt.Errorf("revision is longer than canonical (%s)", info.Short)
case strings.HasPrefix(info.Short, rev):
return fmt.Errorf("revision is shorter than canonical (%s)", info.Short)
default:
return fmt.Errorf("does not match short name of revision (%s)", info.Short)
}
}
t, err := PseudoVersionTime(version)
if err != nil {
return err
}
if !t.Equal(info.Time.Truncate(time.Second)) {
return fmt.Errorf("does not match version-control timestamp (expected %s)", info.Time.UTC().Format(pseudoVersionTimestampFormat))
}
tagPrefix := ""
if r.codeDir != "" {
tagPrefix = r.codeDir + "/"
}
// A pseudo-version should have a precedence just above its parent revisions,
// and no higher. Otherwise, it would be possible for library authors to "pin"
// dependency versions (and bypass the usual minimum version selection) by
// naming an extremely high pseudo-version rather than an accurate one.
//
// Moreover, if we allow a pseudo-version to use any arbitrary pre-release
// tag, we end up with infinitely many possible names for each commit. Each
// name consumes resources in the module cache and proxies, so we want to
// restrict them to a finite set under control of the module author.
//
// We address both of these issues by requiring the tag upon which the
// pseudo-version is based to refer to some ancestor of the revision. We
// prefer the highest such tag when constructing a new pseudo-version, but do
// not enforce that property when resolving existing pseudo-versions: we don't
// know when the parent tags were added, and the highest-tagged parent may not
// have existed when the pseudo-version was first resolved.
base, err := PseudoVersionBase(strings.TrimSuffix(version, "+incompatible"))
if err != nil {
return err
}
if base == "" {
if r.pseudoMajor == "" && semver.Major(version) == "v1" {
return fmt.Errorf("major version without preceding tag must be v0, not v1")
}
return nil
} else {
for _, tag := range info.Tags {
versionOnly := strings.TrimPrefix(tag, tagPrefix)
if versionOnly == base {
// The base version is canonical, so if the version from the tag is
// literally equal (not just equivalent), then the tag is canonical too.
//
// We allow pseudo-versions to be derived from non-canonical tags on the
// same commit, so that tags like "v1.1.0+some-metadata" resolve as
// close as possible to the canonical version ("v1.1.0") while still
// enforcing a total ordering ("v1.1.1-0.[…]" with a unique suffix).
//
// However, canonical tags already have a total ordering, so there is no
// reason not to use the canonical tag directly, and we know that the
// canonical tag must already exist because the pseudo-version is
// derived from it. In that case, referring to the revision by a
// pseudo-version derived from its own canonical tag is just confusing.
return fmt.Errorf("tag (%s) found on revision %s is already canonical, so should not be replaced with a pseudo-version derived from that tag", tag, rev)
}
}
}
tags, err := r.code.Tags(tagPrefix + base)
if err != nil {
return err
}
var lastTag string // Prefer to log some real tag rather than a canonically-equivalent base.
ancestorFound := false
for _, tag := range tags {
versionOnly := strings.TrimPrefix(tag, tagPrefix)
if semver.Compare(versionOnly, base) == 0 {
lastTag = tag
ancestorFound, err = r.code.DescendsFrom(info.Name, tag)
if ancestorFound {
break
}
}
}
if lastTag == "" {
return fmt.Errorf("preceding tag (%s) not found", base)
}
if !ancestorFound {
if err != nil {
return err
}
rev, err := PseudoVersionRev(version)
if err != nil {
return fmt.Errorf("not a descendent of preceding tag (%s)", lastTag)
}
return fmt.Errorf("revision %s is not a descendent of preceding tag (%s)", rev, lastTag)
}
return nil
}
func (r *codeRepo) revToRev(rev string) string {
if semver.IsValid(rev) {
if IsPseudoVersion(rev) {
r, _ := PseudoVersionRev(rev)
return r
}
if semver.Build(rev) == "+incompatible" {
rev = rev[:len(rev)-len("+incompatible")]
}
if r.codeDir == "" {
return rev
}
return r.codeDir + "/" + rev
}
return rev
}
func (r *codeRepo) versionToRev(version string) (rev string, err error) {
if !semver.IsValid(version) {
return "", &module.ModuleError{
Path: r.modPath,
Err: &module.InvalidVersionError{
Version: version,
Err: errors.New("syntax error"),
},
}
}
return r.revToRev(version), nil
}
// findDir locates the directory within the repo containing the module.
//
// If r.pathMajor is non-empty, this can be either r.codeDir or — if a go.mod
// file exists — r.codeDir/r.pathMajor[1:].
func (r *codeRepo) findDir(version string) (rev, dir string, gomod []byte, err error) {
rev, err = r.versionToRev(version)
if err != nil {
return "", "", nil, err
}
// Load info about go.mod but delay consideration
// (except I/O error) until we rule out v2/go.mod.
file1 := path.Join(r.codeDir, "go.mod")
gomod1, err1 := r.code.ReadFile(rev, file1, codehost.MaxGoMod)
if err1 != nil && !os.IsNotExist(err1) {
return "", "", nil, fmt.Errorf("reading %s/%s at revision %s: %v", r.pathPrefix, file1, rev, err1)
}
mpath1 := modfile.ModulePath(gomod1)
found1 := err1 == nil && (isMajor(mpath1, r.pathMajor) || r.canReplaceMismatchedVersionDueToBug(mpath1))
var file2 string
if r.pathMajor != "" && r.codeRoot != r.modPath && !strings.HasPrefix(r.pathMajor, ".") {
// Suppose pathMajor is "/v2".
// Either go.mod should claim v2 and v2/go.mod should not exist,
// or v2/go.mod should exist and claim v2. Not both.
// Note that we don't check the full path, just the major suffix,
// because of replacement modules. This might be a fork of
// the real module, found at a different path, usable only in
// a replace directive.
dir2 := path.Join(r.codeDir, r.pathMajor[1:])
file2 = path.Join(dir2, "go.mod")
gomod2, err2 := r.code.ReadFile(rev, file2, codehost.MaxGoMod)
if err2 != nil && !os.IsNotExist(err2) {
return "", "", nil, fmt.Errorf("reading %s/%s at revision %s: %v", r.pathPrefix, file2, rev, err2)
}
mpath2 := modfile.ModulePath(gomod2)
found2 := err2 == nil && isMajor(mpath2, r.pathMajor)
if found1 && found2 {
return "", "", nil, fmt.Errorf("%s/%s and ...%s/go.mod both have ...%s module paths at revision %s", r.pathPrefix, file1, r.pathMajor, r.pathMajor, rev)
}
if found2 {
return rev, dir2, gomod2, nil
}
if err2 == nil {
if mpath2 == "" {
return "", "", nil, fmt.Errorf("%s/%s is missing module path at revision %s", r.pathPrefix, file2, rev)
}
return "", "", nil, fmt.Errorf("%s/%s has non-...%s module path %q at revision %s", r.pathPrefix, file2, r.pathMajor, mpath2, rev)
}
}
// Not v2/go.mod, so it's either go.mod or nothing. Which is it?
if found1 {
// Explicit go.mod with matching major version ok.
return rev, r.codeDir, gomod1, nil
}
if err1 == nil {
// Explicit go.mod with non-matching major version disallowed.
suffix := ""
if file2 != "" {
suffix = fmt.Sprintf(" (and ...%s/go.mod does not exist)", r.pathMajor)
}
if mpath1 == "" {
return "", "", nil, fmt.Errorf("%s is missing module path%s at revision %s", file1, suffix, rev)
}
if r.pathMajor != "" { // ".v1", ".v2" for gopkg.in
return "", "", nil, fmt.Errorf("%s has non-...%s module path %q%s at revision %s", file1, r.pathMajor, mpath1, suffix, rev)
}
if _, _, ok := module.SplitPathVersion(mpath1); !ok {
return "", "", nil, fmt.Errorf("%s has malformed module path %q%s at revision %s", file1, mpath1, suffix, rev)
}
return "", "", nil, fmt.Errorf("%s has post-%s module path %q%s at revision %s", file1, semver.Major(version), mpath1, suffix, rev)
}
if r.codeDir == "" && (r.pathMajor == "" || strings.HasPrefix(r.pathMajor, ".")) {
// Implicit go.mod at root of repo OK for v0/v1 and for gopkg.in.
return rev, "", nil, nil
}
// Implicit go.mod below root of repo or at v2+ disallowed.
// Be clear about possibility of using either location for v2+.
if file2 != "" {
return "", "", nil, fmt.Errorf("missing %s/go.mod and ...%s/go.mod at revision %s", r.pathPrefix, r.pathMajor, rev)
}
return "", "", nil, fmt.Errorf("missing %s/go.mod at revision %s", r.pathPrefix, rev)
}
// isMajor reports whether the versions allowed for mpath are compatible with
// the major version(s) implied by pathMajor, or false if mpath has an invalid
// version suffix.
func isMajor(mpath, pathMajor string) bool {
if mpath == "" {
// If we don't have a path, we don't know what version(s) it is compatible with.
return false
}
_, mpathMajor, ok := module.SplitPathVersion(mpath)
if !ok {
// An invalid module path is not compatible with any version.
return false
}
if pathMajor == "" {
// All of the valid versions for a gopkg.in module that requires major
// version v0 or v1 are compatible with the "v0 or v1" implied by an empty
// pathMajor.
switch module.PathMajorPrefix(mpathMajor) {
case "", "v0", "v1":
return true
default:
return false
}
}
if mpathMajor == "" {
// Even if pathMajor is ".v0" or ".v1", we can't be sure that a module
// without a suffix is tagged appropriately. Besides, we don't expect clones
// of non-gopkg.in modules to have gopkg.in paths, so a non-empty,
// non-gopkg.in mpath is probably the wrong module for any such pathMajor
// anyway.
return false
}
// If both pathMajor and mpathMajor are non-empty, then we only care that they
// have the same major-version validation rules. A clone fetched via a /v2
// path might replace a module with path gopkg.in/foo.v2-unstable, and that's
// ok.
return pathMajor[1:] == mpathMajor[1:]
}
// canReplaceMismatchedVersionDueToBug reports whether versions of r
// could replace versions of mpath with otherwise-mismatched major versions
// due to a historical bug in the Go command (golang.org/issue/34254).
func (r *codeRepo) canReplaceMismatchedVersionDueToBug(mpath string) bool {
// The bug caused us to erroneously accept unversioned paths as replacements
// for versioned gopkg.in paths.
unversioned := r.pathMajor == ""
replacingGopkgIn := strings.HasPrefix(mpath, "gopkg.in/")
return unversioned && replacingGopkgIn
}
func (r *codeRepo) GoMod(version string) (data []byte, err error) {
if version != module.CanonicalVersion(version) {
return nil, fmt.Errorf("version %s is not canonical", version)
}
if IsPseudoVersion(version) {
// findDir ignores the metadata encoded in a pseudo-version,
// only using the revision at the end.
// Invoke Stat to verify the metadata explicitly so we don't return
// a bogus file for an invalid version.
_, err := r.Stat(version)
if err != nil {
return nil, err
}
}
rev, dir, gomod, err := r.findDir(version)
if err != nil {
return nil, err
}
if gomod != nil {
return gomod, nil
}
data, err = r.code.ReadFile(rev, path.Join(dir, "go.mod"), codehost.MaxGoMod)
if err != nil {
if os.IsNotExist(err) {
return r.legacyGoMod(rev, dir), nil
}
return nil, err
}
return data, nil
}
func (r *codeRepo) legacyGoMod(rev, dir string) []byte {
// We used to try to build a go.mod reflecting pre-existing
// package management metadata files, but the conversion
// was inherently imperfect (because those files don't have
// exactly the same semantics as go.mod) and, when done
// for dependencies in the middle of a build, impossible to
// correct. So we stopped.
// Return a fake go.mod that simply declares the module path.
return []byte(fmt.Sprintf("module %s\n", modfile.AutoQuote(r.modPath)))
}
func (r *codeRepo) modPrefix(rev string) string {
return r.modPath + "@" + rev
}
func (r *codeRepo) Zip(dst io.Writer, version string) error {
if version != module.CanonicalVersion(version) {
return fmt.Errorf("version %s is not canonical", version)
}
if IsPseudoVersion(version) {
// findDir ignores the metadata encoded in a pseudo-version,
// only using the revision at the end.
// Invoke Stat to verify the metadata explicitly so we don't return
// a bogus file for an invalid version.
_, err := r.Stat(version)
if err != nil {
return err
}
}
rev, subdir, _, err := r.findDir(version)
if err != nil {
return err
}
dl, err := r.code.ReadZip(rev, subdir, codehost.MaxZipFile)
if err != nil {
return err
}
defer dl.Close()
subdir = strings.Trim(subdir, "/")
// Spool to local file.
f, err := ioutil.TempFile("", "go-codehost-")
if err != nil {
dl.Close()
return err
}
defer os.Remove(f.Name())
defer f.Close()
maxSize := int64(codehost.MaxZipFile)
lr := &io.LimitedReader{R: dl, N: maxSize + 1}
if _, err := io.Copy(f, lr); err != nil {
dl.Close()
return err
}
dl.Close()
if lr.N <= 0 {
return fmt.Errorf("downloaded zip file too large")
}
size := (maxSize + 1) - lr.N
if _, err := f.Seek(0, 0); err != nil {
return err
}
// Translate from zip file we have to zip file we want.
zr, err := zip.NewReader(f, size)
if err != nil {
return err
}
var files []modzip.File
if subdir != "" {
subdir += "/"
}
haveLICENSE := false
topPrefix := ""
for _, zf := range zr.File {
if topPrefix == "" {
i := strings.Index(zf.Name, "/")
if i < 0 {
return fmt.Errorf("missing top-level directory prefix")
}
topPrefix = zf.Name[:i+1]
}
if !strings.HasPrefix(zf.Name, topPrefix) {
return fmt.Errorf("zip file contains more than one top-level directory")
}
name := strings.TrimPrefix(zf.Name, topPrefix)
if !strings.HasPrefix(name, subdir) {
continue
}
name = strings.TrimPrefix(name, subdir)
if name == "" || strings.HasSuffix(name, "/") {
continue
}
files = append(files, zipFile{name: name, f: zf})
if name == "LICENSE" {
haveLICENSE = true
}
}
if !haveLICENSE && subdir != "" {
data, err := r.code.ReadFile(rev, "LICENSE", codehost.MaxLICENSE)
if err == nil {
files = append(files, dataFile{name: "LICENSE", data: data})
}
}
return modzip.Create(dst, module.Version{Path: r.modPath, Version: version}, files)
}
type zipFile struct {
name string
f *zip.File
}
func (f zipFile) Path() string { return f.name }
func (f zipFile) Lstat() (os.FileInfo, error) { return f.f.FileInfo(), nil }
func (f zipFile) Open() (io.ReadCloser, error) { return f.f.Open() }
type dataFile struct {
name string
data []byte
}
func (f dataFile) Path() string { return f.name }
func (f dataFile) Lstat() (os.FileInfo, error) { return dataFileInfo{f}, nil }
func (f dataFile) Open() (io.ReadCloser, error) {
return ioutil.NopCloser(bytes.NewReader(f.data)), nil
}
type dataFileInfo struct {
f dataFile
}
func (fi dataFileInfo) Name() string { return path.Base(fi.f.name) }
func (fi dataFileInfo) Size() int64 { return int64(len(fi.f.data)) }
func (fi dataFileInfo) Mode() os.FileMode { return 0644 }
func (fi dataFileInfo) ModTime() time.Time { return time.Time{} }
func (fi dataFileInfo) IsDir() bool { return false }
func (fi dataFileInfo) Sys() interface{} { return nil }
// hasPathPrefix reports whether the path s begins with the
// elements in prefix.
func hasPathPrefix(s, prefix string) bool {
switch {
default:
return false
case len(s) == len(prefix):
return s == prefix
case len(s) > len(prefix):
if prefix != "" && prefix[len(prefix)-1] == '/' {
return strings.HasPrefix(s, prefix)
}
return s[len(prefix)] == '/' && s[:len(prefix)] == prefix
}
}